WEBVTT FILE 1 00:00:00.033 --> 00:00:02.402 >> JOHN: So at the end I can lift this up and say “John out” 2 00:00:02.402 --> 00:00:06.206 and drop it? [LAUGHTER] >> OFF: If you want to? 3 00:00:06.206 --> 00:00:18.218 [UPBEAT MUSIC] 4 00:00:18.218 --> 00:00:21.588 >> JOHN: Hello, I’m John Grunsfeld, NASA astronaut. 5 00:00:21.588 --> 00:00:24.625 >> ED: And I’m Ed Rezac, EVA engineer for the Hubble Space 6 00:00:24.625 --> 00:00:28.562 Telescope project at Goddard. >> JOHN: Hubble is an amazing 7 00:00:28.562 --> 00:00:32.165 observatory orbiting the Earth, it’s allowing us to unravel the 8 00:00:32.165 --> 00:00:37.771 mysteries of the Universe. But in 1998, Hubble lost its 9 00:00:37.771 --> 00:00:40.908 gyroscopes, and it stopped doing science. 10 00:00:40.908 --> 00:00:44.645 At the time I was training for the third Hubble 11 00:00:44.645 --> 00:00:48.248 servicing mission. But because all of those gyroscopes had 12 00:00:48.248 --> 00:00:52.819 failed it was a Hubble emergency. And so NASA decided 13 00:00:52.819 --> 00:00:55.222 to split our mission in two, >> ED: That’s right. >> JOHN: So 14 00:00:55.222 --> 00:00:59.693 that we had Servicing Mission 3A and sometime later there would 15 00:00:59.693 --> 00:01:05.966 be mission 3B. And on 3A our primary job was to replace all 16 00:01:05.966 --> 00:01:11.104 of the gyros on the Hubble Space Telescope. Now, this is what’s 17 00:01:11.104 --> 00:01:15.776 called a rate sensor unit, this is a mockup and inside are two 18 00:01:15.776 --> 00:01:20.314 tiny gyros. Each rate sensor unit held two gyros. So we went 19 00:01:20.314 --> 00:01:25.552 up there to replace this, and just like all the other items on 20 00:01:25.552 --> 00:01:30.157 Hubble, it has bolts that are a standard size and the doors open 21 00:01:30.157 --> 00:01:33.360 and close on Hubble so that we could open the doors and go 22 00:01:33.360 --> 00:01:36.596 inside, take out the old ones, put in the new ones and it’s 23 00:01:36.596 --> 00:01:41.268 really easy right? >> ED: No, it isn’t easy. There’s a lot that 24 00:01:41.268 --> 00:01:44.805 has to be done and it’s gotta be done in a very tight spot. The 25 00:01:44.805 --> 00:01:49.076 astronauts have to enter a part of the aft shroud where the 26 00:01:49.076 --> 00:01:54.014 fixed head star trackers are and these are very very sensitive 27 00:01:54.014 --> 00:01:58.318 instruments that help find a target for the telescope to look 28 00:01:58.318 --> 00:02:03.056 at. In addition, there’s a lot going on to hook up and remove 29 00:02:03.056 --> 00:02:07.761 one of these RSUs, we’ve got cables to disconnect and the 30 00:02:07.761 --> 00:02:12.366 three bolts that John pointed out. So, it’s a tough spot. 31 00:02:12.366 --> 00:02:14.201 >> JOHN: This was one of the hardest things I did on the 32 00:02:14.201 --> 00:02:16.703 Hubble Space Telescope, and I can tell you it was a very dark 33 00:02:16.703 --> 00:02:20.674 and scary place in there. Not because space is dark and scary, 34 00:02:20.674 --> 00:02:24.878 but because we were told if we bonked into the star trackers or 35 00:02:24.878 --> 00:02:27.748 we hit the side of the telescope, we could break the 36 00:02:27.748 --> 00:02:31.418 Hubble. And rule number one was don’t break the Hubble. 37 00:02:31.418 --> 00:02:32.986 >> ED: Don’t break the telescope. >> JOHN: Yep. 38 00:02:32.986 --> 00:02:37.024 >> ED: And the astronaut had to enter on your back, and the, 39 00:02:37.024 --> 00:02:40.861 let's see, Steve held you by the feet didn’t he? >> JOHN: I, I 40 00:02:40.861 --> 00:02:43.497 inserted Steve- >>ED: That’s right! >> JOHN: who’s six feet 41 00:02:43.497 --> 00:02:49.369 two into the telescope and >>ED: Those long arms came in handy 42 00:02:49.369 --> 00:02:52.939 >>JOHN: Yep! >> ED: cause he’s gotta reach up over his head and 43 00:02:52.939 --> 00:02:57.477 between the fixed head star trackers to access the cable 44 00:02:57.477 --> 00:03:02.482 disconnects and to get a socket on these bolt heads. >> JOHN: So 45 00:03:02.482 --> 00:03:05.752 it was tough! But we were successful on that mission. We 46 00:03:05.752 --> 00:03:09.990 also put in a new fine guidance sensor, we changed out one of 47 00:03:09.990 --> 00:03:13.160 the transmitters, we put in a solid-state recorder 48 00:03:13.160 --> 00:03:16.163 >> ED: Upgraded the computer. >> JOHN: Yep! And we also put 49 00:03:16.163 --> 00:03:18.598 some new installation on the outside of the telescope 50 00:03:18.598 --> 00:03:21.635 to keep Hubble cool. >> ED: Hubble is cool! 51 00:03:21.635 --> 00:03:24.371 JOHN: Hubble is very cool! Now one of the things I learned on 52 00:03:24.371 --> 00:03:29.943 that mission from you, and from doing the rate sensor unit swap 53 00:03:29.943 --> 00:03:33.914 is that it is a really hard task to be inserted up in there. 54 00:03:33.914 --> 00:03:35.415 >> ED: The neat thing about doing the 55 00:03:35.415 --> 00:03:38.185 multiple servicing missions is that we learn 56 00:03:38.185 --> 00:03:40.854 from each one. >> JOHN: And on the most recent 57 00:03:40.854 --> 00:03:44.825 Hubble servicing mission in 2009. we also had to replace the 58 00:03:44.825 --> 00:03:48.328 gyros, cause they wear out. >> ED: John was faced with doing 59 00:03:48.328 --> 00:03:53.233 the same task again, and he came up with kind of a novel way to 60 00:03:53.233 --> 00:03:57.137 uh make the task easier. >> JOHN: I was thinking, you 61 00:03:57.137 --> 00:04:00.707 know, it’s really hard to get into that spot to replace these, 62 00:04:00.707 --> 00:04:05.145 wouldn’t it be great if you had a super long arm that you could 63 00:04:05.145 --> 00:04:08.248 reach in and grab the gyro to take it out? So I went to the 64 00:04:08.248 --> 00:04:12.119 hardware store and I got one of those pick sticks that allow you 65 00:04:12.119 --> 00:04:16.556 to grab cans off a high shelf, and I brought it into the 66 00:04:16.556 --> 00:04:21.261 neutral buoyancy laboratory one day and we put that pick stick 67 00:04:21.261 --> 00:04:23.797 into the water to see if we could reach the gyro and we 68 00:04:23.797 --> 00:04:28.902 could. Now that was a 20 buck pick stick, and because of that 69 00:04:28.902 --> 00:04:32.806 it inspired a new tool. >> ED: It did, and, that was, I call 70 00:04:32.806 --> 00:04:36.543 those “pet rock moments” cause you see something and you go 71 00:04:36.543 --> 00:04:39.479 [SMACK] well why didn’t I think of that! But it was a beautiful 72 00:04:39.479 --> 00:04:45.018 idea, so we took the concept and we built the RSU changeout tool. 73 00:04:45.018 --> 00:04:49.089 We used it, it came in handy for the last servicing mission in 74 00:04:49.089 --> 00:04:52.792 2009. >> JOHN: Want to demonstrate? >> ED: Absolutely! 75 00:04:52.792 --> 00:04:56.863 >> JOHN: So this is the handrail I had to grab that was so hard, 76 00:04:56.863 --> 00:05:03.370 but now. [RSU TOOL CLACKS] >> ED: Lock it on. >> JOHN: To 77 00:05:03.370 --> 00:05:06.373 reach into the telescope and grab it. >> ED: Pretty sweet. 78 00:05:06.373 --> 00:05:08.441 >> JOHN: So that’s how we develop new tools sometimes, 79 00:05:08.441 --> 00:05:13.280 simple idea and a hard task, make it easier. >> ED: It works! 80 00:05:13.280 --> 00:05:15.215 >> JOHN: Thanks Ed. >> ED: Thanks John. 81 00:05:15.215 --> 00:05:19.085 [UPBEAT MUSIC] 82 00:05:19.085 --> 00:05:24.291 [SILENCE] 83 00:05:24.291 --> 00:05:28.061 JOHN: Hello, I’m John Grunsfeld, NASA astronaut. >> ED: I’m Frank 84 00:05:28.061 --> 00:05:33.166 Cepollina and I’ll never retire. [SOFT LAUGHTER] >> OFF: Should 85 00:05:33.166 --> 00:05:38.104 we do that one over? >> JOHN: Yep. >> ED: Start over. 86 00:05:38.104 --> 00:05:42.742 >> JOHN: Hello, I’m Edwin Hubble, a deceased astronomer. 87 00:05:42.742 --> 00:05:51.151 [UPBEAT MUSIC] 88 00:05:51.151 --> 00:05:52.519 >> JOHN: Got that out of your system? >> ED: I 89 00:05:52.519 --> 00:05:54.321 did, I’m good. [LAUGHTER] >> JOHN: How’s that >> ED: You 90 00:05:54.321 --> 00:05:55.922 started it! [LAUGHTER] >> JOHN: How’s that feel? [LAUGHTER]